Hydraulic running surface
A hydraulic drive device includes a running surface having a pair of arcuate kidney ports formed thereon. The running surface also includes a plurality of pressure gradient grooves formed on the running surface, each pressure gradient groove having a proximal end adjacent to a respective one of the ends of one of the kidney ports and a distal end. The distal end of one of the pressure gradient grooves associated with one kidney port may overlap the distal end of a pressure gradient groove associated with the other kidney port. The distal end of at least one of the pressure gradient grooves is located outside the circumference of a pitch circle that passes through the center of each kidney port. The distal end of at least one of the other pressure gradient grooves is located inside the pitch circle circumference.
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This application is a continuation of U.S. patent application Ser. No. 15/600,353, filed on May 19, 2017, which is a continuation of U.S. patent application Ser. No. 14/248,570, filed on Apr. 9, 2014, now U.S. Pat. No. 9,657,726, which claims the benefit of U.S. Provisional Patent Application No. 61/813,972, filed on Apr. 19, 2013. The contents of these prior applications are fully incorporated herein by reference.
BACKGROUND OF THE INVENTIONThis invention relates generally to a running surface on which a hydraulic rotating kit such as a hydraulic pump cylinder block is rotatably mounted.
SUMMARY OF THE INVENTIONAn improved running surface having pressure gradient grooves adjacent to the respective kidney ports is disclosed herein. In one aspect of this disclosure, at least one of the pressure gradient grooves has a distal end located outside of the pitch circle formed by the kidney ports and at least one of the pressure gradient grooves has a distal end located inside the circumference of the pitch circle. In another aspect of this disclosure, the distal ends of opposing pressure gradient grooves overlap each other. In the embodiments depicted herein, the two pressure gradient grooves with their distal ends disposed outside this circumference correspond to the trailing end of the respective kidney ports, while the other two pressure gradient grooves correspond to the leading end of their respective kidney ports. This design results in improved pressure and flow pulsations in the unit and reduced noise. The disclosure herein may be used in connection with pump end caps, center sections and other mounting structure for one or more rotating kits used in a hydraulic drive device or other application, and may be used with or without a separate valve plate.
A better understanding of the objects, advantages, features, properties and relationships of the invention will be obtained from the following detailed description and accompanying drawings which set forth illustrative embodiments that are indicative of the various ways in which the principles of the invention may be employed.
The description that follows describes, illustrates and exemplifies one or more embodiments of the invention in accordance with its principles. This description is not provided to limit the invention to the embodiment(s) described herein, but rather to explain and teach the principles of the invention in order to enable one of ordinary skill in the art to understand these principles and, with that understanding, be able to apply them to practice not only the embodiment(s) described herein, but also any other embodiment that may come to mind in accordance with these principles. The scope of the invention is intended to cover all such embodiments that may fall within the scope of the appended claims, either literally or under the doctrine of equivalents.
It should be noted that in the description and drawings, like or substantially similar elements may be labeled with the same reference numerals. However, sometimes these elements may be labeled with differing numbers or serial numbers in cases where such labeling facilitates a more clear description. Additionally, the drawings set forth herein are not necessarily drawn to scale, and in some instances proportions may have been exaggerated to more clearly depict certain features. As stated above, this specification is intended to be taken as a whole and interpreted in accordance with the principles of the invention as taught herein and understood by one of ordinary skill in the art.
An exemplary pump assembly 100 is shown in
Turning first to the embodiment shown in
The terms “rat tail” or “fishtail” are often used to describe a pressure gradient groove formed on a running surface adjacent the end of a kidney port, such as the pressure gradient grooves 118a, 118b, 119a and 119b shown in
Each kidney port 118 and 119 has two opposing ends, and a groove formed at each end. Grooves 118a and 118b extend from opposing ends of kidney port 118 while grooves 119a and 119b extend from opposing ends of kidney port 119. As can be seen most clearly in
The depth of each groove 118a and 119b varies from one end to the other, being deeper at the proximal end 152, 154 adjacent the end of the respective kidney port and shallower at the distal end 151, 153. It will be understood that the other grooves 118b and 119a would be identical to their corresponding groove. These grooves have a generally flat ramp 122R as shown in the cross-sectional view of groove 119b in
A further embodiment is depicted in
While
While specific embodiments have been described in detail, it will be appreciated by those skilled in the art that various modifications and alternatives to those presented herein could be developed in light of the overall teachings of the disclosure. Accordingly, the particular arrangements disclosed are meant to be illustrative only and not limiting as to the scope of the invention which is to be given the full breadth of the appended claims and any equivalent thereof.
Claims
1. A hydraulic drive device, comprising:
- a center section disposed in a housing;
- a pump cylinder block engaged to and driven by a pump shaft, the pump cylinder block being rotatably disposed on a running surface disposed in the housing, the running surface comprising:
- a first kidney port having a first leading end and a first trailing end;
- a second kidney port having a second leading end and a second trailing end;
- a first pressure gradient groove in fluid communication with the first leading end, the first pressure gradient groove having a first distal end;
- a second pressure gradient groove in fluid communication with the first trailing end, the second pressure gradient groove having a second distal end;
- a third pressure gradient groove in fluid communication with the second leading end, the third pressure gradient groove having a third distal end; and
- a fourth pressure gradient groove in fluid communication with the second trailing end, the fourth pressure gradient groove having a fourth distal end;
- wherein the first and second kidney ports are disposed along a pitch circle passing substantially through a first center of the first kidney port and a second center of the second kidney port, the first and fourth distal ends overlap along a first arc of the pitch circle, and the second and third distal ends overlap along a second arc of the pitch circle.
2. The hydraulic drive device of claim 1, wherein the second distal end and the fourth distal end are disposed outside the pitch circle.
3. The hydraulic drive device of claim 1, wherein the first distal end and the third distal end are disposed inside the pitch circle.
4. The hydraulic drive device of claim 1, wherein, the fourth and second pressure gradient grooves are longer than the first and third pressure gradient grooves.
5. A hydraulic drive device, comprising:
- a center section disposed in a housing;
- a pump cylinder block engaged to and driven by a pump shaft, the pump cylinder block being rotatably disposed on a running surface disposed in the housing;
- a first kidney port having a first leading end and a first trailing end;
- a first pressure gradient groove having a first proximal end in fluid communication with the first leading end and a first distal end;
- a second pressure gradient groove having a second proximal end in fluid communication with the first trailing end and a second distal end;
- a second kidney port having a second leading end and a second trailing end;
- a third pressure gradient groove having a third proximal end in fluid communication with the second leading end and a third distal end;
- a fourth pressure gradient groove having a fourth proximal end in fluid communication with the second trailing end and a fourth distal end, wherein the first, second, third, and fourth distal ends each have a first depth from a face of the running surface;
- a first generally flat ramp extending from the first distal end to the first proximal end, the first proximal end being deeper from the face than the first distal end;
- a second generally flat ramp extending from the second distal end to the second proximal end, the second proximal end being deeper from the face than the second distal end;
- a third generally flat ramp extending from the third distal end to the third proximal end, the third proximal end being deeper from the face than the third distal end; and
- a fourth generally flat ramp extending from the fourth distal end to the fourth proximal end, the fourth proximal end being deeper from the face than the fourth distal end;
- wherein, the first proximal end is deeper from the face than the second proximal end, and the third proximal end is deeper from the face than the fourth proximal end.
6. The hydraulic drive device of claim 5, wherein the first and second kidney ports define a pitch circle passing substantially through a first center of the first kidney port and a second center of the second kidney port.
7. The hydraulic drive device of claim 6, wherein the second distal end and the fourth distal end are disposed outside the pitch circle.
8. The hydraulic drive device of claim 6, wherein the first distal end and the third distal end are disposed inside the pitch circle.
9. The hydraulic drive device of claim 6, wherein the first and fourth distal ends overlap along a first arc of the pitch circle.
10. The hydraulic drive device of claim 9, the second and third distal ends overlap along a second arc of the pitch circle.
11. The hydraulic drive device of claim 5, wherein at least one of the first, second, third, and fourth proximal ends is respectively joined to the first and second kidney ports via a radius.
12. A hydraulic drive device, comprising:
- a center section disposed in a housing;
- a pump cylinder block engaged to and driven by a pump shaft, the pump cylinder block being rotatably disposed on a running surface disposed in the housing;
- a first kidney port and a second kidney port formed on the running surface;
- a first leading pressure gradient groove having a first leading proximal end engaged to a first end of the first kidney port and a first leading distal end;
- a first trailing pressure gradient groove having a first trailing proximal end engaged to a second end of the first kidney port and a first trailing distal end; and
- a second leading pressure gradient groove having a second leading proximal end engaged to a first end of the second kidney port and a second leading distal end;
- a second trailing pressure gradient groove having a second trailing proximal end engaged to a second end of the second kidney port and a second trailing distal end;
- wherein:
- the first and second kidney ports are generally arcuate and define a pitch circle passing substantially through a first center of the first kidney port and a second center of the second kidney port;
- the first trailing distal end is disposed outside the pitch circle; and
- the first leading distal end is disposed inside the pitch circle.
13. The hydraulic drive device of claim 12, wherein the second trailing distal end is disposed outside the pitch circle, and the second leading distal end is disposed inside the pitch circle.
14. The hydraulic drive device of claim 13, wherein the running surface is formed on the center section.
15. The hydraulic drive device of claim 13, wherein the first leading proximal end, the first trailing proximal end, the second leading proximal end and the second trailing proximal end are all disposed on the pitch circle.
16. The hydraulic drive device of claim 13, wherein the first and second leading pressure gradient grooves respectively overlap the first and second trailing pressure gradient grooves.
17. The hydraulic drive device of claim 16, wherein the first leading proximal end, the first trailing proximal end, the second leading proximal end and the second trailing proximal end are all disposed on the pitch circle.
18. The hydraulic drive device of claim 1, wherein the running surface is formed on the center section.
19. The hydraulic drive device of claim 5, wherein the running surface is formed on the center section.
Type: Grant
Filed: Jul 3, 2018
Date of Patent: Jan 14, 2020
Assignee: Hydro-Gear Limited Partnership (Sullivan, IL)
Inventor: Nathan W. Bonny (Shelbyville, IL)
Primary Examiner: Charles G Freay
Application Number: 16/026,634
International Classification: F04B 1/20 (20060101);